电势电容电路短路火花放电影响因素分析

Analysis of influencing factors of short-circuit spark discharge in electric potential capacitance circuit

  • 摘要: 现有针对容性电路电火花放电和大功率本安电源研究的模型和方法大多只考虑了储能元件在放电过程中的放电特性,没有考虑电源电势对容性电路放电特性的影响;在分析容性电路放电特性时都是在空载情况下进行的,没有考虑实际应用中带载的情况。针对上述问题,在分析容性电路短路火花放电特性的基础上,将本安电源等效为电势电容(EC)电路,引入电源电势与外部负载,建立其火花放电等效数学模型,推导在电路发生故障时火花放电电流、放电电压和放电功率的数学表达式,并结合数学模型和Matlab进行了仿真研究,分析了电源电势、滤波电容、短路回路电阻及短路前负载电流对短路故障时火花放电电流、放电电压及放电功率的影响。理论分析和仿真结果表明,EC电路短路时火花放电电流与火花放电功率在起始阶段迅速上升到最大值,后缓慢下降,火花放电电压迅速下降到最小值;EC电路短路时,不改变其他电路参数,随着电源电势增大,火花放电电流明显增大,火花放电功率也明显增大,对电路本质安全性能威胁较大;随着滤波电容增大,火花放电电流尖峰增大,火花放电功率增大,需要考虑输出电压纹波与本质安全性能,合理选择滤波电容的容值;随着短路时的回路电阻增大,火花放电电流明显减小,火花放电功率也明显减小,能够有效提升电路本质安全性能;随着短路前负载电流增大,火花放电电流与火花放电功率有所增大,但增大不明显,对电路的本质安全性能影响不大。

     

    Abstract: Most of existing models and methods for research of capacitive circuit spark discharge and high-power intrinsic safety power supply only consider discharge characteristics of energy storage elements during discharge process, and do not consider influence of power supply potential on discharge characteristics of capacitive circuit. Analysis of capacitive circuit discharge characteristics is carried out under condition of no load, without considering situation of load in practical application. For the above problems, based on analysis of short-circuit spark discharge characteristics of capacitive circuit, the intrinsically safe power supply is equivalent to the electric potential capacitance (EC) circuit, and spark discharge equivalent mathematical model was established by introducing power supply potential and external load, the mathematical expressions of spark discharge current, discharge voltage and discharge power is derived in the circuit failure, and combined with the mathematical model and Matlab simulation research, the influence of the power supply potential, filter capacitor, short-circuit resistance and load current before short-circuit on short-circuit spark discharge current, discharge voltage and discharge power during faults were analyzed. Theoretical analysis and simulation results show that in the short-circuit of EC circuit, the spark discharge current and spark discharge power rapidly rise to the maximum value at the initial stage, and then slowly decrease, and the spark discharge voltage quickly drops to the minimum value; in short-circuit of EC circuit, other circuit parameters are not changed, with the increase of the power supply potential, the spark discharge current and the spark discharge power increase obviously, which poses a great threat to the intrinsic safety performance of the circuit; with the increase of the filter capacitor, the spark discharge current spike increases, the discharge power increases, it is necessary to consider the output voltage ripple and intrinsic safety performance to reasonably select the capacitance value of the filter capacitor; as the loop resistance increases during a short-circuit, the spark discharge current and the spark discharge power are also significantly reduced, which can effectively improve the intrinsic safety performance of the circuit; with the increase of the load current before the short-circuit, the spark discharge current and spark discharge power increase somewhat, but the increase is not obvious, which has little influence on the intrinsic safety performance of the circuit.

     

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